Aqueous supercapacitors(SCs)have received considerable attention owing to the utilization of low-cost,non-flammable,and low-toxicity aqueous electrolytes thus could eliminate the safety and cost concerns,but their wid...Aqueous supercapacitors(SCs)have received considerable attention owing to the utilization of low-cost,non-flammable,and low-toxicity aqueous electrolytes thus could eliminate the safety and cost concerns,but their wide temperature range applications have generally suffered from frozen of electrolyte and insufficient ionic conductivity at low temperatures.Herein,we demonstrate the feasibility of using an unconventional Deep Eutectic Solvent(DES)based on H2O-Mg(ClO4)2·6 H2O binary system as electrolyte to construct all-climate aqueous carbon-based SC.This unconventional class DES completely base on inorganic substances and achieving simply mix inexpensive salts and water together at the right proportions.Attributed to the attractive feature of extremely low freeze temperature of-69℃,this electrolyte can enable the 1.8 V carbon-based SC to fully work at-40℃with outstanding cycling stability.This DES electrolyte comprising of a single salt and a single solvent without any additive will open up an avenue for developing simple and green electrolytes to construct all-climate SC.展开更多
A drug-drug molecular salt hydrate of berberine and protocatechuic acid has been prepared.Protocatechuic acid lost its carboxylic proton and turned to be protocatechuic anion to form a 1:1:1 organic salt hydrate wit...A drug-drug molecular salt hydrate of berberine and protocatechuic acid has been prepared.Protocatechuic acid lost its carboxylic proton and turned to be protocatechuic anion to form a 1:1:1 organic salt hydrate with berberine,[C(20)H(18)NO4]+[C7H5O4]^-·H2O(1).Compound1 crystallizes in the triclinic system,space group P1 with a = 7.9849(5),b =10.5437(5),c = 14.3621(5)?,α = 77.983(4),β = 82.900(4),γ = 78.024(4)o,V = 1152.82(10) A^3,Mr= 507.48,Dc= 1.462 g/cm^3,μ = 0.929 mm^-1,F(000) = 532,Z = 2,the final R = 0.0488 and w R = 0.1322 for 3993 reflectionswith I 〉 2σ(I).The hydrate exhibited good solid state stability against humidity,which may result from strong hydrogen-bonding interactions between water molecules and carboxylate groups.The hydrate also exhibited acceptable solubility and dissolution rate.展开更多
A novel preparation method was developed to form a surfactant-lipase complex for the resolution of 2-octanol in a solvent-free system. The E value was improved from 6.64 to 120.2. The lipase modified by the anion...A novel preparation method was developed to form a surfactant-lipase complex for the resolution of 2-octanol in a solvent-free system. The E value was improved from 6.64 to 120.2. The lipase modified by the anionic surfactant possessed a low solubility in the solvent-free system, which was beneficial to the recovery and the repeated usage of the lipase. The surfactant-lipase complex maintained a high enantioselectivity after five cycles of usage. The effect of water on both the activity and the enantioselectivity of the lipase has also been investigated; the direct addition of a salt hydrate pair of Na 4P 2O 7·H 2O and Na 4P 2O 7 can dramatically activate the modified enzyme.展开更多
The application of phase change materials(PCMs)into buildings is a prospective method for mitigating energy consumption in the construction sector.Among the diverse PCM options,salt hydrate PCMs stand out for their su...The application of phase change materials(PCMs)into buildings is a prospective method for mitigating energy consumption in the construction sector.Among the diverse PCM options,salt hydrate PCMs stand out for their superior thermal storage densities,adaptable operating temperature ranges,and cost-effectiveness,rendering them highly attractive for practical engineering applications.However,the utilization of salt hydrates has encountered obstacles,including pronounced supercooling,severe phase separation,and insufficient thermal conductivity,limiting their efficacy in energy storage solutions.In response to these challenges and in pursuit of rendering salt hydrates viable for building energy storage systems,substantial research has been conducted in recent years.This paper offers a comprehensive overview of the strategies devised to address the challenges associated with salt hydrate PCMs,and it also elucidates the corresponding optimization methodologies and bolstering mechanisms,providing a valuable resource for researchers in this field.展开更多
基金financially supported by the DNL Cooperation Fund,Chinese Academy of Sciences(DNL180307)Natural Science Foundation of Gansu Province(18JR3RA159)。
文摘Aqueous supercapacitors(SCs)have received considerable attention owing to the utilization of low-cost,non-flammable,and low-toxicity aqueous electrolytes thus could eliminate the safety and cost concerns,but their wide temperature range applications have generally suffered from frozen of electrolyte and insufficient ionic conductivity at low temperatures.Herein,we demonstrate the feasibility of using an unconventional Deep Eutectic Solvent(DES)based on H2O-Mg(ClO4)2·6 H2O binary system as electrolyte to construct all-climate aqueous carbon-based SC.This unconventional class DES completely base on inorganic substances and achieving simply mix inexpensive salts and water together at the right proportions.Attributed to the attractive feature of extremely low freeze temperature of-69℃,this electrolyte can enable the 1.8 V carbon-based SC to fully work at-40℃with outstanding cycling stability.This DES electrolyte comprising of a single salt and a single solvent without any additive will open up an avenue for developing simple and green electrolytes to construct all-climate SC.
基金supported bythe National Natural Science Foundation of China(21503105)the Natural Science Foundation of Fujian Province(2015J01599,2017J01584)Research Project for Fujian Provincial Universities(JK2015038)
文摘A drug-drug molecular salt hydrate of berberine and protocatechuic acid has been prepared.Protocatechuic acid lost its carboxylic proton and turned to be protocatechuic anion to form a 1:1:1 organic salt hydrate with berberine,[C(20)H(18)NO4]+[C7H5O4]^-·H2O(1).Compound1 crystallizes in the triclinic system,space group P1 with a = 7.9849(5),b =10.5437(5),c = 14.3621(5)?,α = 77.983(4),β = 82.900(4),γ = 78.024(4)o,V = 1152.82(10) A^3,Mr= 507.48,Dc= 1.462 g/cm^3,μ = 0.929 mm^-1,F(000) = 532,Z = 2,the final R = 0.0488 and w R = 0.1322 for 3993 reflectionswith I 〉 2σ(I).The hydrate exhibited good solid state stability against humidity,which may result from strong hydrogen-bonding interactions between water molecules and carboxylate groups.The hydrate also exhibited acceptable solubility and dissolution rate.
基金Supported by the National Natural Science Foundation of China( No.2 0 0 72 0 11and 2 0 2 72 0 17)
文摘A novel preparation method was developed to form a surfactant-lipase complex for the resolution of 2-octanol in a solvent-free system. The E value was improved from 6.64 to 120.2. The lipase modified by the anionic surfactant possessed a low solubility in the solvent-free system, which was beneficial to the recovery and the repeated usage of the lipase. The surfactant-lipase complex maintained a high enantioselectivity after five cycles of usage. The effect of water on both the activity and the enantioselectivity of the lipase has also been investigated; the direct addition of a salt hydrate pair of Na 4P 2O 7·H 2O and Na 4P 2O 7 can dramatically activate the modified enzyme.
基金supported by the National Natural Science Foundation of China(51925804 and 52208275)the China Postdoctoral Science Special Foundation(2023T160433)
文摘The application of phase change materials(PCMs)into buildings is a prospective method for mitigating energy consumption in the construction sector.Among the diverse PCM options,salt hydrate PCMs stand out for their superior thermal storage densities,adaptable operating temperature ranges,and cost-effectiveness,rendering them highly attractive for practical engineering applications.However,the utilization of salt hydrates has encountered obstacles,including pronounced supercooling,severe phase separation,and insufficient thermal conductivity,limiting their efficacy in energy storage solutions.In response to these challenges and in pursuit of rendering salt hydrates viable for building energy storage systems,substantial research has been conducted in recent years.This paper offers a comprehensive overview of the strategies devised to address the challenges associated with salt hydrate PCMs,and it also elucidates the corresponding optimization methodologies and bolstering mechanisms,providing a valuable resource for researchers in this field.
